Compressible fluid gas dynamic generator by microwave magnetic material thermoeffect

ABSTRACT

The gas fluid heated by microwave in buoyancy body in liquid makes fluid dynamics. The fluid gas dynamics makes energy in buoyancy body, we can make this enegy use of generator. The gas dynamics is created by compressible fluid dynamics system by tube and fin. We irradiate microwave temperature sensitive magnetic material and control magnetization by curie temperature by heating magnet by microwave irradiation. The differentiation of electromagnetic stress force of magnet makes buoyancy rotator rotate and generate electric energy.

BACKGROUND OF INVENTION

[0001] The system development of efficient, sustainable, stable cleanenergy human's most important theme. The electric generating system offluid buoyancy is one of such inventions. The stable energy can be gotby rotating buoyancy body, to get high power, we put into higher energyfrom outer source, in the buoyancy body, inner energy is increased. Thegas dynamical energy is increased by inner from structure and getefficient high energy in the system. The rotating body, gets maximumpower if force is given from outer rim, because of torque, can get moreefficient energy. The energy efficiency got higher up if force is givenfrom more outer radius. We need to accumulate energy concentration onouter rim for getting efficient rotational energy by the system. To getefficient energy in the elliptical or cylindrical buoyancy body alongouter rim, we make elliptical, compressible fin structure such aspicture 1 or compressible gas fluid structure by tube such as picture 2to get maximum energy and fix the body. We atttach temperature sensitivemagnetic material surrounding outer rim of buoyancy body and set up alsotemperature non respond facing permanent magnet outside the buoyancybody. The buoyancy body with temperature sensitive magnet is in thecooled liquid. We irradiate microwave temperature sensitive magnet fromoutside by pulse during interval of time. The magnet is heated and getshigh temperature, the temperature of magnet raised up beyond curiepoint, magnetization disapears and cool down by water after rotationcertain interval and recover magnetism by the interaction of permanentmagnet and temperature senstive magnet. The electromagnetism stressforce makes buoyancy rotor rotate and the temperature of magnet makesbuoyancy body's domestic low density gas and liquid heated and fluiddynamics makes buoyancy rotor rotate and makes electricity generatingpower. The compressible fin strucuture, example picture 1, we set up finon the light buoyancy structure of the flat body which is ellipticallydouble strucutre. The domestic of honeycome strucuture makes it take gasback, and support rotating axis. I fix the structure of fin at the therotating axis. I attain one stable fin against the rotating axis ofoutside of double structure. When the gas is heated by microwaveirradiation and expanded and gas fluid come out. The density of gasraised up by the compressible fin of axis and centrifugal compressiblefin. The compressible gas fluid flows into minutely divided fin, andmakes energy, take advantage of rotational energy of buoyancy body. Ifthe temperature of buoyancy body goes near to stable, rotational energydecreases. To heat buoyancy body, we heat by microwave irradiation bypulse with frequency similiar with rotational frequency. To cool downthe liquid which support buoyancy body, we circulate liquid from valve.The setting of structure of fin makes more minute to the apex of the rimof ellipse. The centrifugal compressible fin captures fluid easily, gasdensity gets higher, higher energy is gotten by setting the rotationalaxis and fixing. The portion which microwave is irradiated from outsideis the forefront of elliptical body and the portion of gas which iscompressed. We select the magnetic substance material, picture 1 carboncomposite or zirconia, to deviate temperature. If the gas of thatportion is heated by microwave and expands, flows into the minute fins.The fins which are fixed, compresses fluid gas that which comes close toapex and fluid buoyancy body rotates fast.

[0002] The compressed gas fluid structure creates energy by flowinggases or liquid in tube, which is hellically round in buoyancy body asexample picture 2. The structure of tube got taping off. The gasdynamics accelarated by stable rate of speed. If the gas and liquid arekept stable volume and heated by microwave irradiation, by the expansionof gas, convection happened. From one substantial volume space minutetubes gathered, hellically round in buoyancy body and make the structureof convection. We put substantial density of gas and liquid and heatfrom outside, volume is expanded, in the gathered tubes, and convectionhappened. I will fix the tube which has taping angle from large radiusto small radius fix in the rotational axis. This convection of tube isheated, compressed gas fluid happened along the axis and gas fluid runsin hellically round tube, and rotates. In the compressed gas fluidstructure, rotating body's energy efficiency got raise up when buoyancybody goes to apex and outer rim. The minuted tubes are explosed in hightempearture and needs to forbear outer and inner pressure, The light andstiff tubes are made of carbon graphite. When I put on low densityvolatile and vapored liquid and add heat by microwave irradiation. Theenergy raises up by vapor pressure makes rotational energy as the sameprinciple by gas.

[0003] The system compressed fin structure is arranged after compressedtube structure is advantageous by gas dynamics, we can make systemefficient by both system's merit.

[0004] The gas dynamics is once heated by microwave irradiation hightemperature fluid's buoyancy body's covered lowers temperature liquid,and if temperature of liquid raise up by high temperature of buoyancybody, the buoyancy by liquid lowers off and so circulate lowertemperature liquid by valve, and kept temperature of liquid low The gasfluid dynamics can be kept on.

[0005] If the fluid buoyancy body rotate fast, inner pressure and outerpressure influence the structure. To get buoyancy, the buoyancy bodyneeds light material and needs to forbear inner and outer pressure. Tobalance the force, aluminium honeycome structure and taping structure isbest fit. Microwave is absorbed a lot in water, outer water of buoyancybody got hotter, lower the buoyancy force. For microwave being absorbedin buoyancy body effectively, the outer liquid needs to be permeativityhigh, density high, low viscousity, bubbling point needs to be high,such as tetra-chloroethylene. If we tried high efficeint rotation, lowviscousity, bubbling point needs to be higher, such astetra-chloroethylene. If we tried high efficient rotation, we irradiatemicrowave from outside efficiently. We need to raise up intensity to theportion which microwave is absorbed. We set up electrowave lense whichmicrowave which makes focus the distance from the source of microwave.We efficiently make use of microwave. From outside of buoyancy to giveenergy by microwave, microwave is transmitted by guided wave tube andirradiate from outside. From outside by guided wave tube, microwave isirradiated and to be absorbed, we make use of quantity which doesn'tabsorb or diffuse microwave, and uses the material of transparent. Thereare a lot of material which can get high temperature in short time byirradiating microwave, but temperature goes up suddenly, apparentlydamages facility.

[0006] To prevent this damage, we can control the temperature byselecting magnet substance material of heating body, selecting crystalstructure ferrite such as nickel ferrite 2.45 GHz 0.5 kw, 140° C. orhigher curie temperature lithium ferrite to control higher temperatureless than 200° C. or ceramic material zirconia which can control hightemperature 1000° C. by thermocoupling. If we rotate fast ellipticalcylindrical form of buoyancy body, propelling energy is given raiseparallel to the rotational axis. This propelling energy is the maincause that rotational axis is required strength. To support the strengthof the structure, rotational axis, weight of structure is strengthenedgenerally, but if the weight of structure increase, buoyancy forcedecrease. The buoyancy body's rotational motion and fluid dynamics ofsupporting body to rotate show duffing. This phenomena leads to decreaserotational motion and lowers off generator efficeincy. The near theportion of rotating axis, along the spherical surface of cylinder orellipse, I set up variable torque crutch for the example of tribologywhich distribute propelling force, we transform from propelling force torotating force. We enforce the strength ability of rotating axis. Theoutput energy of these generator is larger than the energy input bymicrowave.

[0007] We set up buoyancy rotor in the cooled liquid as water, or aliquid which is heavier density and higher bubbling point attachtemperature senitive magnet surrounding outer rim of buoyancy rotor, andwe set up permanent temperature-non-responsive magnet outside thebuoyancy rotor. When we heat temperature sensitive magnet and cool downthe magnet as the central of curie temperature, The magnetization ofmagnet disappear and recover and makes electromagnetic stress force androtor rotate. The rotating of buoyancy rotor's inner gas'es fluiddynamics and electromagnetic stress force of magnet makes electricgenerating power. The buoyancy rotor attached temperature sensitivemagnet is put on cooled water or liquid keeping under curie temperatureof temperature sensitive magnet, and cooled water or liquid iscirculated for keeping constant low temperature. To raise up thetemperature of temperature sensitive magnetic material, we transmitmicrowave by guided wave tube irradiate microwave to temperaturesensitive magnetic material and heat. The temperature sensitive magneticmaterial absorb microwave as magnetization is strong, and quickly gothigh temperature. The change of temperature is central of curietemperature, In the higher than curie temperature, magnetizationdisappears, and in the lower than curie temperature magnetizationrecovers. The heating is done by microwave irradiation, cooling is doneby water or liquid circulation which keep buoyancy rotor. The output ofrotating power of magnetic stress force of rotor and fluid dynamicaleffect of gas dynamics in the buoyancy rotor is generated power morethan microwave input power, electric generator is constructed.

SUMMARY OF INVENTION

[0008] This elliptical cylindrical rotating body is put on, the heavydensity liquid, and the interval energy of buoyancy increase electricgenerating energy. High density deviation occurs at the same. Not forthe microwave diffusing, high liquid refraction rate is expecting, suchliquid is tetra-chloroethylene. From outside, microwave is irradiated byguided wave tube, not to be absorbed by radio frequency, we need to usethe material like quartz we paint carbon, radiate microwave, bythermomoleculer movement, temperature raise up near 1000° C. In bothcompressible fin method, compressible fluid dynamical method, we can addrequired heat by microwave irradiation. The buoyancy body is cooled downby outer liquid, or cooling pipe, the stable temperature is kept on, Toselect the temperature keeping magnetic substance material crystalstructure ferrite such as nickel ferrate or higher curie temperaturelithium ferrite or ceramic material, zirconia which can control hightemperature by thermocoupling, as heating body, we irradiate microwave2.45 GHz, 500 w temperature is kept on 140° C. by nickel ferrite,lithium ferrite less than 200° C., FeSi compound is material is 400° C.,zirconia carbon composite 1000° C. To prevent the efficiency loss ofenergy by microwave electrowave diffusing, we use electrowave lense,focusing the distance, and intensity raises up. The focusing distancecaluculation method is the same as normal optical lense. The buoyancybody needs to be aluminium honeycome to forbear heat and pressure. Theelliptical body raises up fluid dynamics energy with outer liquid. Totransfer it to rotational effective energy. We set up variable torquecratch. By following the fluid dynamical energy transfers to effectiverotational energy, increase effective generating power. When we put onvolatile liquid in body, heat it by vapor pressure, kinetic energyhappened, it can be transfered, rotational energy, vapor pressureequation P(T)=P₀exp(L₀/RT) pressure P(T)P₀ pressure constant, L₀specific heat, T absolute temperatutre, R gas constant. In these methodoutput of generating energy is greater than imput energy of microwave.

[0009] The buoyancy rotor attached temperature sensitive magnet materialon outer rim is set in the cooled liquid with axis for rotating. Thepermanent magnet temperature non responsive magnet is set outside thebuiyancy rotor. We irradiate microwave temperature sensitive magnet onrotor and heat, beyond curie temperature, magnetization is lost andrecover magnetization by being cooled by water. The magnetic stressforce between temperature sensitive magnet and permanent magnet makesrotor rotate, and the gas dynamical effect by heating in the buoyancyrotor which is more than liquid resistivity make rotor rotate, andgenerate electric power.

DESCRIPTION OF DRAWING

[0010]FIG. 1

[0011]1 axis compressor 2: centrifugal compressor fin 3: variable crutch4: aluminium honeycome 5: magnetic material 6: magnetic material 7:valve 8: quartz glass 9: electrowave lens 1 10: electrowave lense 2 1:one direction valve 12: strength material

[0012] From A to B, the gas is heated by microwave irradiation byelectrowave lense 9, magnetic material 6 on the first step.

[0013] Next C to D, the gas is heated by microwave irradiation on thesecond step by magnetic material.

[0014] The gas is heated by microwave irradiation first step and secondstep under different interval pulse and frequency to deviatetemperature. The gas dynamics moves from A to E, through F, reenters A.On picture-1, the portion which microwave is irradiated from electrowavelense, magnet material, the portion is covered by quartz.

[0015]FIG. 2

[0016]13: carbon pipe 14: variable crutch 15: aluminium honeycome 16:magnetic material 17: valve 18: quartz 19: electrowave lense 20: onedirection valve. Cross picture of buoyancy body, along the axis tapingtube is fixed. tubes are round hellically in buoyancy body, crosspicture of tubes is shown. From A to B the gas is heated by microwaveirradiation, the gas goes to the taping tube, from B the gas passesthrough C to D, passes valve reenters A.

[0017]FIG. 3. Image picture of FIG. 1

[0018]FIG. 4. Image picture of FIG. 2

[0019]FIG. 5 Front figure 21 water surface, 22: facility set, 23:waterbath, 24: axis, 25: generator, 26: buoyancy rotor

[0020]FIG. 6 side figure 27: microwave source, 28; guded wave tube, 29:permanent magnet, 30: temperature sensitive magnet 31: structure ofbuoyancy rotor 32: angle 33: fixing tool

[0021]FIG. 7 facility set 28: guided wave tube, 29: permanent magnet,30: temperature sensitive magnet 31: buoyancy rotor, 33 quartzelectrowave lense

[0022]FIG. 8 buoyancy rotor 34: apex of buoyancy rotor 30: temperaturesensitive magnet

[0023]FIG. 9

[0024] magnetic material and carbon silicon 30: temperature sensitivemagnet 35: carbon silicon

DESCRIPTION OF INVENTION

[0025] Following, we explain by FIG. 1, FIG. 2, image of FIG. 1 is FIG.2, image of FIG. 2 is FIG. 4.

[0026] In the elliptical or cylindrical compressed fin structure 2, inthe FIG. 1 the portion which is gas compressed is heated by microwaveirradiation 9 and gas is expanded. One kind of compressor is heated bymicrowave from magnetic substance material 8 from facility 9. The gasdynamics is compressed by fin. The compressor which heat is given bymicrowave initially small radius such as FIG. 1, fluid compressor 2. Itraises up kinetic energy and heat energy. The compressor which is set upbehind that is large radius compressor 2 and that is centrifugalcompressor. It compressed gas by internal energy and radius centrifugalforce. The compressor rotates by compressed gas. The higher energyhappened as temperature is higher by heated from microwave irradiation,gas passes through between magnetic substance material 5,6, gas isheated by microwave irradiation, high temperature gas passes throughfins, 5,6 from A to F and gets enter center reenter FIG. 1-A heatingportion and gas dynamics is circulated. We can control temperature bymagnetic substance material 8, and crystal strucucture, ferrite such asnickel ferrite or higher curie temperature lithiumn ferrite or ceramicmaterial zirconia 8 which can control higher temperature bythermocoupling. The energy efficiency of exhaust valve is more than 1.The gas from exhaust valve passes through the portion of center ofbuoyancy body return back input heating body, rotate gas dynamicsefficiently. The reduced pressure valve heating gas fluid concentrationarea control pressure, connect generator and produce electric power. Allpower of compressor fin structure 2 is power transfered to axis andexhausting gas's propelling power. This is the following equation. W isratio of gas dynamics flow by heat temperatrature and all propellingpower. W=P/mc_(p)T₀+(γ−1)[(2θ_(τ)/θ₀τ_(c)τ_(t)−1)/(γ−1))^(1/2)−M₀]m,quantity of gas of imput (per unit time), to outer temperature c_(p)specific heat γ=1.4θ₀ compressor's total temperature/atomospherictemperature θ_(τ) input temperature/total temperature τ_(c) compressor's total temperature ratio τ_(τ) gas temperature M₀ Mach number Thebalance of gas power and compressor and axis power P

P+mc _(p)(T _(τC) −T _(τD))=mc _(p)(T _(τD) −T _(τE))

[0027] T_(τB), T_(τC), T_(τD), T_(τE) picture portion B,C,D,Etemperature

[0028] To increase the power, so raise up temperature, T_(τC)−T_(τB) ascompressor quality is high.

[0029] We heat the portion of compressor by microwave as imput ofturbulance is high, We heat heating by microwave different from normalmethod.

[0030] χ is the efficient energy ratio which effective energy is takenfrom exhausting gas dynamics

χ=(P ^(tF) /P ₀)^((γ−1)/γ)

[0031] P₀ portion 0 presuure, P^(tF) portion F

[0032] The time during generator working χ is more than 1, exhaustinggas enters from the outer passes through center reenter the gas imput,picture 1-A goes to compressor again, gas dynamics works efficiently. Tocontrol pressure valve, I set up two reduced pressure valve 7.

[0033] In the FIG. 2 In the elliptical or cylindrical rotational body'slong many minute tubes of carbon pipe 13 which are round hellically,example FIG. 2, gas and liquid are set up, heat them by microwave tomagnetic substance material 13 from quartz glass 18 by electrowave lense19 and safety valve 20 is set up, One directional valve 20 is set up.and generate electricity. Tubes length make longer by hellicalstructure. The taping of cross section and length of tube andthermoeffect make compressed fluid gas dynamics choking phenomena whichraises up mach number and raise up energy. To forbear the pressure, thestructure is honeycome structure. Mach number goes to critical pointMach 1. If tube is lavel nozzle, Mach number is more than 1, supersonicflow will appear. Most energy is increased and shock wave happened. Thiselliptical or cylindrical buoyancy body is put under heavy densityliquid The internal energy is increased by buoyancy energy. To raise upefficiency of buoyancy body in liquid, variable crutch 14 is set up.These both energy increases and its efficiency makes generating energy.The fluid in minute tube, regarding as density stable, Mach number M=0fluid, Within the density variable rate within 5%, non compressiblefluid

0<M<0.3

[0034] The kinetic is less than 2.5% of internal energy. M<1. Subsonicfluid, less than critical mach M=0.8 The kinetic energy is 18% ofinternal energy. M<1, subsonic fluid, less than critical Mach numberM=0.8 The kinetic energy is 18% of internal energy. The transonic fluidcritical Mach number M=0.8.The kinetic energy is 18% of internal energy.The transonic fluid is critical Mach number 1-1.3. The shock wavehappened, kinetic energy is less than 50% of internal energy. If Machnumber is 3<M<5, supersonic flow state will appear, kinetic energy is50% or 7 times of internal energy. In the fluid of tube

[0035] 1) Cross sectional area A is varied.

[0036] 2) In the long tube, By friction, total pressure P₀ is decreased.

[0037] 3) By heating total temperature T₀ increase

[0038] In this time, Mach number increased, at one cross sectional area.Mach number 1 is critical condition called choking.

[0039] The following item 1), 2), 3), we prove the equation of the stateof gas.

[0040] 1) The cross sectional area is decreased

[0041] The relation of Mach number and sectional area (Mach number M₁,cross sectional area A₁), cross section 2 (Mach number M₂, CrossSectional A₂)

A ₂ /A ₁ =M ₁ /M ₂[((γ−1)M ₂ ²+2)/((γ−1)M ₁ ²+2)]^((γ+1/2(γ−1))

[0042] γ=1.4

[0043] 2) According to friction, total pressure P₀ decreased, if tubelength is enough longer, fluid achieve M=1 critical point by thefriction of tube, Outer pressure P₀₂, Input preussure P₀₁.

[0044] The following equation exist

P ₀₂ /P ₀₁ =M ₁(2/γ+1)^(1/2)[2/((γ−1)M ₁ ²+2)]^((γ+1/2(γ−1)))

[0045] 3) The total temperature T increase by heating

[0046] If body is heated, Mach number goes to 1, critical pointachieved.

[0047] This is choking by heat, Mach number M, total temperature T₀₁fluid needs maximum qmax for choking

qmax/cp(T ₀₁ /T ₁)=(M ₁ ²−2)/2(1+γ)M ₁ ²

[0048] c_(p) specific heat γ=1.4

[0049] In FIG. 5, FIG. 6 I set up buoyancy rotor 26 in the water bath orliquid density and bubbling pont more than water such astetra-chloroethylene 22 I attach temperaure sensitive magnet 30 on therim of buoyancy rotor 26 between intervals, outside the buoyancy rotor,I set up the permanent magnet 29 in the facility set 22. I set uptemperature sesitive magnet 30 by selecting curie temperature. Thetemperature sensitive magnet 30 lose magnetism beyond curie temperature,and if the temperature of magnet is lower than curie temperature,magnetism is recovered. The interaction of magnetism of temperaturesesitive magnet 30 and permanent magnet 29 makes buoyancy rotor 26rotate. To raise up temperature sensitive magnet beyond curietemperature, we irradiate microwave by guided wave tube 28 frommicrowave source 27 to temperature sensitive magnet 30, and to recovermagnetism, temperature sensitive magnet is cooled down by circulation ofwater or liquid in water tank 23.

[0050] The interaction of magnetism makes rotor rotates by irradiatingmicrowave in certain pulse, and generates electric energy. The curietemperature of temperature sensitive magnet 30, advantageous in water orliquid is around 15-120° C. The water or liquid must be kept on coldbelow curie temperature and needs to be circulated. The material oftemperature sensitive magnet is ferrite or alloy magnet. We choose thetemperature sensitive magnet as the ratio of magnetization pertemperature is higher below curie temperature, and the change ofmagnetization depended on temperature is quick. The permanent magnetshould be temperature non-responsive material. The fluid gas dynamiceffect of buoyancy rotor and the interaction of magnetism by temperaturemake rotor rotate and generate electric energy. The permanet magnet isdealt with aluminium plating not to absorb microwave by magnetism. InFIG. 7, for irradiating microwave to temperature sensitive magnet 30effectively, to prevent microwave diffusing, I set up quartz electrowavelense 33 to guided wave tube 28 and use cylindrical guided wave tube fordrift movement of electrowave to focuse microwave, and raise up theefficiency of irradiation of microwave to magnet surface. In FIG. 9, Imake lattice strucure of carbon silicon 35 and temperature sensitivemagnet material 30 to absorb thermoefficiency of microwave irradiation.Not to diffuse microwave in water by ionization of material in water, wecan use chloroethylene for substitute. In FIG. 8 to raise up torque ofrotation, I set up temperature sensitive magnet 30 on the apex of therim of buoyancy rotor 34. The total strucure should not be effected bymicrowave, need to make by aluminium or titan. We can generate electricpower by interaction of magnetism of temperature and gas fluid dynamicsheated by magnetic material by microwave, which is greater than waterresistivity considering the efficiency of rotor's torque.

1. The buoyancy body getting buoyancy force, from outer the buoyancybody, irradiating microwave by guided wave tube from microwave source,to magnetic substance material, zyrconia, activitied carbon or carbongraphite raising temperature and being heated by microwave irradiation,heating gas of inner of buoyancy body, raising temperature of domesticof buoyancy body, getting large buoyancy force, expanding gas ofdomestic of buoyancy body, gas fluid occuring, shape of buoyancy bodybeing elliptical, spherical fixing buoyancy body and being capable ofrotating attaching fin making axis central compressible gas fluid orcentrifugal compressible gas fluid, heating domestic gas of buoyancybody getting fluid gas energy, being bigger than initial power ofmicrowave source.
 2. In the same shape elliptical spherical buoyancybody, in the domestic of buoyancy body, gathering heat proof, tapingtube making gas flowing all gathered tube, gas being heated by microwaveirradiation to magnetic substance or zyrconia, or activitied carbon, orcarbon graphite, heated gas flowing to gatherd tubes hellically rotatingas the central axis, from heating position tubes getting thiner andthiner by taping angle, gas or liquid of domestic of buoyancy body beingheated by microwave irradiation, gas fluid occuring, buoyancy bodyrotating axis central.
 3. The outer liquid supporting buoyancy body andinner domestic gas being density deviated not diffusing microwave, highrefraction liquid boiling temperature high, low viscosity,tetra-chloroethylene, the window being irradiated by microwave beingquartz material, not absorbing electromagnetic wave, carbon graphite,zyrconia being irradiated microwave raising temperature about 1000° C.,microwave being kept constant magnetic substance material and crystalstructure, temperature being caluculated safety being assured, nickelferrite heater 140° C. 2.45 Ghz 500 w, high curie temperature lithiumferrite 200° C., carbon graphite and zyrconia high temperature statusbeing controlled by thermocoupling, for focusing microwave lenseconcentrating heating to material, using electrowave lense, forbearingpressure and heat, being light weight material outer shape being usedalminium honeycome structure, controlling duffing of high speed rotationin the liquid, setting variable crutch for stable movement keptefficiency of producing electric power, setting circular pump of outerliquid cooling.
 4. The buoyancy rotor being set in the water bath torotate axis central, the temperature sensitive magnet being attached onthe outer rim of buoyancy rotor, the permanent magnet being set outsidethe buoyancy rotor, irradiating microwave to temperature sensitivemagnet by guided wave tube from microwave source heating temperaturesensitive magnet beyond curie temperature and losing magnetism,recovering magnetism by circulated cooled water or higher density andhigher bubbling point liquid, below curie temperature, choosingtemperature sensitive magnet, the ratio of magnetism per temperature ishigh around curie temperature, disappearence and recover magnetism beingquick around curie temperature the, interaction of magnetism betweentemperature sensitive magnet and permanent magnet making rotor rotate,gas dynamical effect in buoyancy rotor making rotor rotate more thanwater resistivity, generating electric power, focusing microwave toprevent microwave diffuse by magnetism or ionized material in water,quartz electrowave lense being used, cylindrical guided wave tube beingused for drift movement of electrowave, heating temperature sensitivemagnet by microwave effectively, lattice structure of carbon silicon andtemperature sensitive magnetic being made.